Definition of APECED (autoimmune polyendocrinopathy)

APECED (autoimmune polyendocrinopathy-candidiasis-ectodermal dystrophy): A genetic autoimmune disease with an extraordinary array of clinical features but characterized most often by at least 2 of the following 3 findings: hypoparathyroidism -- underfunction of the parathyroid glands which control calcium, candidiasis (yeast infection), and adrenal insufficiency (underfunction of the adrenal gland). APECED was the first systemic (bodywide) autoimmune disease found due to a defect in a single gene.

By "autoimmune" is meant that the immune system (which normally wards off foreign invaders of the body) turns and attacks tissues such as skin, joints, liver, lungs, etc.) of the body. Examples of common systemic autoimmune diseases include rheumatoid arthritis, systemic lupus erythematosus, diabetes mellitus, Sjogren syndrome, scleroderma, Goodpasture syndrome, vitiligo, Addison disease, thyroiditis, and many others.

In 1997 a novel gene was identified that mapped to chromosome region 21q22.3. The gene was named AIRE for autoimmune regulator. Changes in the AIRE gene are responsible for APECED.

APECED is inherited as a recessive trait such that a child with the disease has received 2 changed (mutant) AIRE genes, one from each parent. Although APECED is generally rare, it is more frequent in 3 genetically isolated populations: the Finnish, Iranian Jews, and Sardinians.

The child with APECED develops problems in numerous glands (polyglandular) including hypoparathyroidism, hypogonadism (with sex gland failure), adrenal insufficiency, type 1 (insulin-dependent) diabetes with insufficient insulin production by the pancreas gland, and latent hypothyroidism (underfunction of the thyroid gland). Other features of APECED are total baldness (alopecia totalis), inflammation of the cornea and whites of the eye (keratoconjunctivitis), underdevelopment (hypoplasia) of the enamel of the teeth, childhood-onset moniliasis (yeast infection), juvenile-onset pernicious anemia, gastrointestinal problems (malabsorption, diarrhea), and chronic active hepatitis.

The laboratory studies in APECED attest to an immune disease with an abnormally low level of gammaglobulin antibodies in blood (hypogammaglobulinemia) and an abnormally low T4/T8 white blood cell ratio (as in
AIDS). There is specific evidence for autoimmunity with
antibodies directed against the adrenal and thyroid glands and against cell nuclei (antiadrenal, antithyroid
and antinuclear antibodies).

The treatment of APECED is directed at treating the specific problems: replacing the various hormones that are in short supply, giving insulin for the diabetes, treating the yeast infections, etc. However, there is no known cure for APECED.

The prognosis (outlook) depends on whether the critical hormone deficiencies are remedied and especially whether the infections can be successfully controlled.

Syndrome, autoimmune polyglandular (APS): A genetic autoimmune disease with an extraordinary array of clinical features but characterized most often by at least 2 of the following 3 findings: hypoparathyroidism -- underfunction of the parathyroid glands which control calcium, candidiasis (yeast infection), and adrenal insufficiency (underfunction of the adrenal gland). APS was the first systemic (bodywide) autoimmune disease found due to a defect in a single gene.

By "autoimmune" is meant that the immune system (which normally wards off foreign invaders of the body) turns and attacks tissues such as skin, joints, liver, lungs, etc.) of the body. Examples of common systemic autoimmune diseases include rheumatoid arthritis, systemic lupus erythematosus, diabetes mellitus, Sjogren syndrome, scleroderma, Goodpasture syndrome, vitiligo, Addison disease, thyroiditis, and many others.

In 1997 a novel gene was identified that mapped to chromosome region 21q22.3. The gene was named AIRE for autoimmune regulator. Changes in the AIRE gene are responsible for APS.

APS is inherited as a recessive trait such that a child with the disease has received 2 changed (mutant) AIRE genes, one from each parent. Although APS is generally rare, it is more frequent in 3 genetically isolated populations: the Finnish, Iranian Jews, and Sardinians.

The child with APS develops problems in numerous glands
(polyglandular) including hypoparathyroidism, hypogonadism (with sex gland failure), adrenal insufficiency, type 1 (insulin-dependent) diabetes with insufficient insulin production by the pancreas gland, and latent hypothyroidism (underfunction of the thyroid gland). Other features of APS are total baldness (alopecia totalis), inflammation of the cornea and whites of the eye (keratoconjunctivitis), underdevelopment (hypoplasia) of the enamel of the teeth, childhood-onset moniliasis (yeast infection), juvenile-onset pernicious anemia, gastrointestinal problems (malabsorption, diarrhea), and chronic active hepatitis.

The laboratory studies attest to an immune disease with an abnormally low level of gammaglobulin antibodies in blood (hypogammaglobulinemia) and an abnormally low T4/T8 white blood cell ratio (as in
AIDS). There is specific evidence for autoimmunity with
antibodies directed against the adrenal and thyroid glands and against cell nuclei (antiadrenal, antithyroid
and antinuclear antibodies).

The treatment of APS is directed at treating the specific problems: replacing the various hormones that are in short supply, giving insulin for the diabetes, treating the yeast infections, etc. However, there is no known cure yet for APS.

The prognosis (outlook) depends on whether the critical hormone deficiencies are remedied and especially whether the infections can be successfully controlled.